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[
Cell,
2014]
Li et al. demonstrate that a single interneuron can regulate analog- and digital-like behaviors guided by two different postsynaptic neurons. Releasing a single neurotransmitter onto downstream neurons that express receptors with distinct biophysical properties enables a small set of neurons to direct a range of functional responses.
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[
Curr Biol,
2015]
A recent study identifies a role for a Toll pathway with likely non-canonical features in the developmental specification of BAG neurons in Caenorhabditis elegans. These neurons function to sense carbon dioxide, which is shown to facilitate avoidance of pathogenic bacteria.
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[
Elife,
2015]
A pair of neurons is required for nematodes to be able to navigate using the Earth's magnetic field.
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[
Neuron,
2004]
Insulin/IGF signaling has emerged as a central regulator of metazoan aging. In C. elegans, insulin-like peptides are expressed predominately in neurons. Alcedo and Kenyon demonstrate that removal of specific gustatory and olfactory neurons result in longer life, suggesting that metazoan longevity is influenced by sensory perception.
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[
Neuron,
2012]
Animals use a form of sensory feedback termed proprioception to monitor their body position and modify the motor programs that control movement. In this issue of Neuron, Wen etal. (2012) provide evidence that a subset of motor neurons function as proprioceptors in C.elegans, where B-type motor neurons sense body curvature to control the bending movements that drive forward locomotion.
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[
Curr Biol,
2010]
A screen for axonal cargo mislocalization in Caenorhabditis elegans neurons implicates the cyclin-dependent kinases CDK-5 and PCT-1 and the cyclin CCY-1 in the regulation of the microtubule motor cytoplasmic dynein.
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[
Neuron,
2001]
Weighing in at about 5 ug, with 302 neurons and 5000 synapses, C. elegans is unlikely to prove theorems, write poetry, or challenge Mike Tyson. Still, remarkable behavioral complexity is packed into this tiny worm.
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[
Neuron,
2012]
The adult mammalian central nervous system exhibits restricted regenerative potential. Chen etal. (2011) and El Bejjani and Hammarlund (2012) used Caenorhabditis elegans to uncover intrinsic factors that inhibit regeneration of axotomized mature neurons, opening avenues for potential therapeutics.
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[
Nat Neurosci,
2003]
A new study in this issue demonstrates that two GABAergic motor neurons in C. elegans are excitatory at target muscles because GABA activates a ligand-gated cation conductance, which is structurally similar to several other ligand-gated channels.
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[
Curr Biol,
2013]
Environmental stress triggers substantial alterations in animal physiology and, in some cases, brain structure. Using the nematode Caenorhabditis elegans, a new study reports that unfavorable conditions lead to dramatic dendrite remodeling in neurons that mediate an adaptive dispersal behavior.